TWI242940B - Exerted bolting mechanism of plug-and-play optical module - Google Patents

Abstract

The present invention relates to an exerted bolting mechanism of plug-and-play optical module which combines an elastomer and a pulling pole so as to horizontally immerse the elastomer by its deformation in the optical module coupling with the rotation of the pulling pole. By the bolting mechanism of the invention, the optical module can be separated from an electronic device. The configuration of the present invention has a simple structure and is easy to be installed, realizing the stability and convenience of the plug-and-play at the same time.

Description

1242940 V. Description of the invention (1) [Technical field to which the invention belongs] The present invention is a latching mechanism, which is applied to a pluggable optical module, especially a pluggable optical device having both stability and convenience. Module's extended latch mechanism. [Previous technology] In the field of optical communication, the optical transceiver module has always been a key component of the photoelectric conversion interface, and its signal transmission rate can be from 155 ^ / 3 to 125 (^ / 3, even 疋 2 · 5Gb / s, its package There are many types of forms depending on the operating environment, including the early mature lx9pin package, GBIC (GigaBit Interface Converter) package, SFF (Small F〇rm Factor) package I, and SFP (Sinall F〇rm Fact〇r) piuggaMe) package. The lx9Pi.n package and the SFF package are fixed packages. These modules are not easy to remove after they are assembled in the system. As for the GBIC package and SFP package, they are pluggable packages. After being installed in the system, it can still be plugged in. In pluggable modules, the electrical issues faced by the module during plugging and plugging, as well as the reliability on the plugging mechanism, need to be considered. The previous case is US Patent Publication No. 6 439 9 1 8 6, 533, 603 of Finisar Company, which discloses the flash lock mechanism of the SFp packaging module, and the mold lock mechanism is extended or Retracted into the module. Also as Inflneon National patent public patent, which is also applied to the SFP seal # ϋ, 4ιϊ &, the snap spring on the transceiver module makes the mounting module Λ rotate with the lever to oppose, you measure & 1 make the module latch The lock can protrude and disengage from the snapping shrapnel, so that the chess set can be disengaged. Regardless of the state, most of the flash five, the description of the invention (2) the design of the lock mechanism has a common disadvantage, that is, it only increases the cost of components Make the assembly equivalent. [Brief description of the invention] In order to solve the above problems, the protruding interlocking mechanism proposed by the present invention is not only simple in structure and easy to use.] Stability and convenience. The mechanism can also be disclosed according to the present invention, which includes a setting groove and an elastic body i: die = ::: 有 上:; :: terminal; r card mouth and; extension: = ^ iu 斜面 ' The elastic body is installed with the mouth opening exposed to form the engaging portion, and the grapefruit 6 is placed in the groove, and one end and the middle section have a slanted out mating forming linkage module to be fixed to the electronic device. : When the other end of the linkage is combined with the nuclear group rotation, the The elastic body is deformed, and the elastic body is stretched outwards by bending two pieces, so that the engagement of the elastic body end is slid along the inclined surface of the setting groove, and the optical module can be separated from electricity. [Embodiment] According to the invention disclosed by the present invention: the mechanism, which has an extended type of plug-in first learning module, such as :::::: pluggable in the light "only with optical transceiver mode: ; Litter, light receiver, etc., please refer to Figure 1. "The latch mechanism 20 is applied to the optical mold island, not = module: It has a latch on the light to the card by the card portion. Figure 1242940 of the latching module of the terminal assembly. V. Description of the invention (3) '1 〇' and the optical module can be selectively combined and fixed on the electronic device (not shown in the figure), meanwhile refer to "Figure 2 ”, The optical module 10 may be composed of an upper cover 11, a circuit board 12 and a lower cover 13, and the latch mechanism 20 includes a tie rod 21, an elastic body 22 and a setting groove, and the tie rod 21 is installed at the front end of the optical module 10. 'And has a rotating portion 211 and rod bodies 212, 213 extending downward from both ends of the rotating portion 211, and the rod bodies 212, 21 Each of 3 has a rotation shaft 2121, 2 1 3 1. The elastic body 2 2 is made of a material having appropriate elasticity and resilience, such as metal, plastic, etc., and the ends are engaging portions 221 and 222. The abutting portions 224 and 223 are formed near the ends and are connected. The f-folding ring is extended to have a linking portion 225, 226, and finally connected to form a whole. The setting groove 23 cooperates with the design of the elastic body 22 for the elastic body 22 to be installed. In this embodiment, since both ends of the elastic body 22 have engaging portions 221 and 222 and abutting portions 224 and 223, the setting groove 23 also cooperates with the design. A first setting groove 231 and a second setting groove 232 are included. The openings at the two ends of the first setting groove 2 3 1 are respectively defined as the clamping opening 2 3 丨 丨 and the stretching opening 2 3 1 2. The middle position near the clamping opening 2 3 11 has an inclined surface 2313, the same second setting The openings at both ends of the groove 232 are also defined as the clamping port 232 1 and the stretching port 2322, and a middle surface near the clamping port 232 1 has an inclined surface 2 3 2 3. As shown in "Figure 3", the elastic body 22 is installed in the installation groove 23, and the engaging portions 221 and 222 are exposed by the card openings 232 1, 2311, respectively, and the optical module can be fixed (see Figure 1). ), And the abutting portions 223 and 224 abut the inclined surface 2313 of the first setting groove 231 and the inclined surface 2323 of the second setting groove 232, respectively, and the front-end linkage portions 225 and 226 are exposed by the stretching ports 2322 and 2312.

1242940

The rotating shafts 2121 and 2131 of the tie rod 21 are on. 〇 · «In the ΛΛ I state, please refer to" Figures 4A and 4β ". Since the elastic body 22 and the tie rod 21 are hooked together, and the abutting portions 223 and m abut on the inclined surfaces 2313, 2 3 2 * 3, The tie rod 21 is maintained in a substantially vertical state and is close to the edge of the learning module 10, at this time, the engaging portions 221 and 222 are exposed. Once the lever 21 is turned, the lever 21 is rotated around the rotating shafts 2111 and 2121 as the axis, and is rotated relative to the optical module 10 until the lever bodies 212 and 213 of the lever 21 touch the edge of the optical module 10, please refer to the " 5A, 5B ". Because the distance L1 of the ends of the talents 212 and 213 beyond the rotation axes 2121 and 2131 is greater than the distance L2 between the rotation axes ^ 121, 2131 and the optical module 10 (that is, the distance between the tie rod 21 and the side wall surface of the optical module 10, see the fourth figure) ), In the case of continuous rotation, the pull rod 21 will be forced to receive a reaction force and slide outward with the rotating shafts 2121 and 2131 'refer to "Figures 6A and 6B", and because the elastic body 22 uses the linkage portion 225, 226 is hooked on the rotating shafts 2121 and 2131 of the tie rod 21, so it will be pulled outwards by the tie rod 1 so that the abutting portions 223 and 224 are along the inclined surfaces 231 3 and 2323, and the elastic body 21 is forced to deform, and the end engaging portions 221, 222 is submerged into the first accommodating slot 231 and the second accommodating slot 232 by the clip openings 2311 and 2321, so that the optical module 10 can be released from the state of being combined with the electronic device. Therefore, a structure is simple, the number of components is small, the relative cost is low, and it is easy to assemble. In addition, the elastic body 22 is not limited to the shape of a linear body as shown in the figure, and may be changed to a sheet shape. The engaging portions 221 and 222 are not limited to protrude outward from the left and right, and may also be according to different aspects. The design is a design of an upper part or a single engaging part. Please refer to "Figure 7", which is another embodiment of the present invention. Basically, the design and operation principle of the pull rod 21 are the same.

Page 9 1242940 V. Description of the invention (5) The sexual body 2 2 is designed as a piece, sandwiched on one side of the optical module, with an upwardly protruding engaging portion 227 on one side, and a slope 228 (see below) Figure 8A). As shown in "Fig. 8A", under normal conditions, the abutting portion 228 of the elastic body 22 abuts the inclined surface 233, and the engaging portion 227 at the edge is hooked into the engaging slot 41 of the electronic device 40 to combine the optical module. It is fixed to the electronic device 40. \ Turn the tie rod 21, please refer to "Figure 8B", the same, it will move elastically & 22 to slide outward, so that its abutting portion 228 deforms along the inclined surface 23 22, and the end engaging portion 227 is submerged and can be disengaged The card body is not used ^: Ϊ Ming: =: j Among the preferred embodiments, and equal changes and modifications are made, the% is :: $$ The scope of patent application for invention is covered by the scope of the invention patent.

1242940 Brief description of the drawings Figure 1 is a schematic diagram of the invention combined with an optical module. FIG. 2 is an exploded view of the optical module combined with the present invention. FIG. 3 is an exploded view of the optical module combined with the present invention. Figures 4A, 4B ~ 6A, 6B are schematic diagrams of the operation of the present invention. Fig. 7 is a schematic diagram of an optical module combined with another embodiment of the present invention. Figures 8A and 8B are schematic diagrams of the operation of Figure 7 of the present invention. [Illustration of Symbols] 1 0 Optical module 1 1 Upper cover 1 2 Circuit board 1 3 Lower cover 2 0 Latch mechanism 2 1 Tie rod 2 1 1 Rotating part 2 1 2 Rod body 2 1 2 1 Rotary shaft 2 1 3 Rod Body 2 1 3 1 Rotating shaft 2 2 Elastic body 2 2 1 Engaging portion 2 2 2 Engaging portion 2 2 3 Abutting portion 2 2 4 Abutting portion

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Brief description of the drawing 2 2 5 Interlocking section 2 2 6 Interlocking section 2 2 7 Engaging section 2 2 8 Abutting section 2 3 Setting slot 2 3 1 First setting slot 2 3 1 1 Locking V 2 3 1 2 Stretching V 2 3 1 3 Bevel 2 3 2 Second setting groove 2 3 2 1 Clamp V 2 3 2 2 Stretch D 2 3 2 3 Bevel 2 3 3 Bevel 4 0 Electronic device 4 1 Card slot L 1 L 2 12 pages

Claims (1)

1242940 VI. Scope of patent application 1 · An extendable latch mechanism of a pluggable optical module, which is applied to a pluggable optical module that can be selectively combined with an electronic device. The extended latch The locking mechanism includes: 设置 a setting slot provided in the optical module, a clip opening and a stretch opening are respectively defined at the two ends, and an inclined surface is adjacent to the clip opening; an elastic body is accommodated; In the setting groove, one end is an engaging portion that can be exposed from the clamping opening, and the other end extends from the stretching opening to a linking portion, and a middle portion has an abutting portion contacting the inclined surface; and a tie rod, a pivot The stretching opening provided on the optical module and adjacent to the setting slot can rotate relative to the optical module and interlock the elastic body outward through the linking portion, so that the abutting portion of the elastic body extends along the The slanted surface slides the engaging portion into the installation groove through the engaging opening. 2 · The protruding latch mechanism of the pluggable optical module as described in item 1 of the scope of the patent application, wherein the slot and the opening of the slot are two adjacent to the optical module. Side, so that the card mouth is roughly perpendicular to the stretching. 〇3. The plug-in type optical module's protruding flash lock mechanism described in the first patent application scope, wherein the elastic system has a green fold The abutting portion is formed. 4. The protruding latch mechanism of the pluggable optical module according to item 1 of the scope of the patent application, wherein the end of the elastic body protruding from the stretching port is bent and wound to form the linkage portion, Fastened to the tie rod. 5 · The protruding latch mechanism of the pluggable optical module according to item 4 of the scope of patent application, wherein the tie rod system has a rotating shaft and a connection to the Page 13 1242940 The shaft of the shaft with the scope of the patent application. Normally, the lever is maintained close to the optical module by the pull rod = supposed to the shaft and 6. as described in item 5 of the scope of patent application. A pluggable flash lock mechanism, in which the lever of the pull rod is extended from the gap between the rod and the optical module, and the rotation axis is large for the optical module to rotate, so that the rod body The rotating shaft phase causes the elastic body to stretch outward through the linking portion. … Learn the module before you can 7 · The pluggable flash lock mechanism described in item 丨 of the scope of the application for patent, where the tie rod is large before the module's extension: a rod body that extends backwards and The rotating shaft is respectively installed on the optical module by the rotating shaft to rotate the rotating shaft and the module. The rod j is relative to the optical 8. = the pluggable optics described in item 7 of the patent application patent = the lock mechanism 'wherein the rod body is normally placed by the extension of the sexual body 9 The pluggable optical mode latching mechanism described in item 8, wherein the end of the rod body of the pull rod extends beyond the rotation and protrudes from the gap between the pull rod and the optical module. The optical module rotates, so that the rod body abuts against the optical body, and the elastic body is stretched outwards through the linking portion. Grade 10 and 10 · The pluggable optical mode flash lock mechanism described in item 8 of the scope of patent application, further includes a slide groove for the rotation shaft to be set up, and the extension shaft and the tie rod are stretched outwards. distance. , ’And read again. " Fit on the shaft and keep the lever in a linked position. Bits of Preset Group 1242940 VI. Scope of patent application 11 · A latching mechanism of a pluggable optical module is applied to a pluggable optical module that can be selectively combined with an electronic device. The locking mechanism includes: S two setting grooves provided in the optical module, each of which has two ends defining a ^ opening and a stretching opening, and has an inclined surface adjacent to the locking opening; two elastic bodies, The receiving grooves are respectively accommodated in the setting grooves, one end is that the engaging portion can be exposed from the clamping opening, and the other end extends from the opening and stretching opening to form a linkage portion, and a middle portion has an abutting portion contacting the inclined surface; and The pull rod is pivoted on the optical module and is adjacent to the stretching port of the installation slot, and can be rotated relative to the optical module and through the linking portion, the elastic body is stretched outward to make the elastic body resist. The abutting portion slides along the inclined surface to drive the engaging portion from the engaging opening into the setting groove. 12. The plug-in optical 9 module's extended flash lock mechanism as described in item 丨 丨 of the scope of patent application, wherein the two stretching ports are located on adjacent sides. 13. The extendable flash lock mechanism of the pluggable optical module according to item n of the scope of patent application, wherein the two card mouths are located on opposite sides. 14. The latching mechanism of the pluggable optical module according to item 丨 丨 of the scope of patent application, wherein the two elastic bodies are respectively connected to each other through the linkage. 1 5 The extension # lock mechanism of the pluggable optical module described in item 11 of the patent scope of Shanru / eye, where the slot and the opening of the slot are adjacent to the module. Both sides' make the card opening roughly perpendicular to the stretch YI Λ J242940 1 6 The extension type interlock mechanism of the pluggable optical module as described in the item 11 of the 'Patent Scope of the Application', wherein the elastic system has a bend to form an airlock rest. W 1 7 · The protruding interlocking mechanism of the pluggable optical module as described in the application, the patent scope item 11, wherein the elastic body is bent and wound around the protruding end of the stretching port to form the The linking portion is fastened to the tie rod. 1 8 • The protruding flash lock mechanism of the pluggable optical module according to item 丨 7 of the patent application scope, wherein the tie rod system has a rotating shaft and a rod body connected to the rotating shaft. , The linking portion is fastened to the rotating shaft and the pull rod is maintained close to the optical module. 1 9 • The protruding flash lock mechanism of the pluggable optical module as described in item 8 of the patent application scope, wherein the end of the rod body beyond the rotating shaft is larger than the rod and the optical module. The gap is rotated relative to the optical module by the pull rod with the rotating shaft, so that the rod body abuts against the optical module and can be linked to stretch the elastic body outward through the linking portion. 20. The protruding latch mechanism of the pluggable optical module according to item 11 of the scope of patent application, wherein the tie rod system includes a rotating portion and a rod body extending rearwardly from the rotating portion and located respectively The rotating shaft 'on the rod body is mounted on the optical module through the rotating shaft so that the pull rod can rotate relative to the optical module. 2 1 · The protruding latch mechanism of the pluggable optical module according to item 20 of the scope of patent application, wherein the rod body is normally fastened to the shaft by the linking portion of the elastic body and The pull rod is maintained close to the optical module. Page 12 1242940 6. The scope of application for patent 22 The pluggable optical module lock mechanism described in item 21 of the Ming patent yoke enclosure, wherein the end of the rod body beyond the shaft is larger than the rod and the optical system. The gap of the module is extended by the lever with the latching mechanism of the pluggable optical module as described in item 22 of the patent application scope, and further includes a slide slot for the rotation shaft to be set, and The distance between the rotating shaft and the pull rod extending outward. Rotating relative to the optical module causes the rod body to abut against the optical mold, and the elastic body can be pulled outward through the linking portion. 24 · —An extendable latch mechanism of a pluggable optical module, which is applied to a pluggable optical module that can be selectively combined with an electronic device. The extendable latch mechanism includes : ~ A setting slot is provided on the optical module, one end defines a card opening, and an inclined surface is adjacent to the card opening; an elastomer is interposed on the optical module, and one end is an engaging portion. The self-locking mouth is exposed, and the middle section has an abutting portion contacting the inclined surface; ^ a pull rod is pivoted on the optical module and is linked to the elastic body, which can rotate relative to the optical module and link the elasticity The body is stretched outward, so that the abutting portion of the elastic body slides along the inclined surface, so that the engaging portion is sunk into the setting groove by the engaging opening. 25. The protruding latch mechanism of the pluggable optical module according to item 24 of the scope of the patent application, wherein the elastic system has a bend to form the guilty part. 2 6 · The extendable latch mechanism of the pluggable optical module according to item 24 of the scope of patent application, wherein the tie rod system includes a rotating portion and 1242940 VI 27 28. Scope of patent application _________ A rod body and a shaft located on the rod body are respectively extended backward by the rotating portion. The rod is mounted on the optical module through the rotating shaft to enable the optical module to rotate.丨 In this • The latching mechanism of the pluggable optical module described in item 26 of the patent application scope, wherein the end of the rod body beyond the rotating shaft is larger than the rod and the optical module The gap is rotated relative to the optical module by the pull rod with the rotation axis, so that the rod body is abutted against the optical module and linked with the asexual body to stretch outward. For example, the protruding flash lock mechanism of the pluggable optical module described in item 26 of the patent application scope further includes a slide slot for the rotation shaft to be set, and limits the distance between the rotation shaft and the pull rod extending outward. . According to the projected latching mechanism of the pluggable optical module described in item 24 of the scope of patent application, the elastic system is a piece. 29.